HHC 2016 Highlights

HHC 2016 Highlights

When:  September 17 and 18, 2016

Where: Fort Collins, CO

If you are a fan of Hewlett Packard calculators and math, the annual HHC conferences, held every September, could be a weekend conference for you.  I have attended HHC conferences since 2003 and went most years.  

Here some highlights from this years’ conference.  You can access the presentations here:  http://hhuc.us/2016/files/Speakers/.  Also with each section, the youtube of each talk is now available as of today (Thank you Eric Rechlin of hpcalc.org!)

 

The HHC 2016 Group Photo - Used by Permission from Jake Schwartz - Thank you!

 

First Day:  September 17, 2016

HP Calculator Power Supplies:  Jim Johnson

Video:  https://www.youtube.com/watch?v=lIjQn9a5n3U

For batteries to work for calculating devices, the batteries must provide power to last (at least a few months of use), comply with all the regulations (FCC, etc), fit in a small space, and if the batteries are rechargeable, they must be able to recharge safely.  The area of where batteries can be used safely is small.  For lithium ion batteries, the range is between 2 and 4 volts, operating between 0°C and 100°C.  Battery problems caused Samsung Galaxy 7 phone and hover boards to be recalled.  

The original HP 35 (1972) power supply worked with 4 different voltages.  A similar power supply used for the HP 29C (1977).  As we can imagine, as calculators grow complex, so do their power supply structures.  For the current HP Prime, the power supply works with 10 different voltages.  

From the HP-35 to HP 9825:  Don Morris

Video:  https://www.youtube.com/watch?v=iQdtk3pk86M

We are appreciative of Don Morris, who was one of the engineers who worked with the HP 35 and HP 9825.  

To recall the HP 35 story, idea of the HP 35 was Bill Hewett’s desire to have a pocket version of the HP 9100.  There were two plants, Palo Alto, CA and Loveland, CO, involved with the project.  A desktop prototype was worked on in Loveland, where the hand held was developed in Palo Alto.  Hewett set the price of the HP 35 at $395.  

After the HP 35, the HP 9805A, and their successors HP 45 and HP 46 were in production, there were reports HP 9805A had power problems.  Morris found a bug that caused the HP 9805A did not always powered on, the cause was a C&T chip.  The company fixed the machines but quietly.

Morris also was involved with the HP 9825A, along with Barney Oliver and Dorian Shainin.  The HP 9825A was different from the 35, 45, and 46:  it wasn’t RPN but algebraic (equations were evaluated as they were written, with implicit multiplication allowed for one-letter upper case variables). 

Morris was involved with a problem with 9825A.  A scientists in Australia was using the 9825 as part of a high altitude experiment.  A fuse went out, and in consultation, Morris suggested a ten ampere fuse, which was normally not recommended for 9825A.   Thankfully the suggestion worked.  

Calculator Bibliography Update:  Felix Gross

Video:  https://www.youtube.com/watch?v=LrkTSTo4h2I

Gross is currently putting together a list of calculator documents.   As of 2016, the list of entries grew to 4,032, and Gross is asking for references, specifically on the subject of teaching, electrical engineering, civil engineering, and finance.  His email is felix.gross@alumni.ethz.ch .  Gross has noted the publishing of calculator peaked around 1980 and 1981.  

Raspberry PI Update:  Jackie Woldering

Video:  https://www.youtube.com/watch?v=2OeSRVhqCHA

 

The Raspberry PI, a low cost computer which runs on Linux, has taken off.  Current models include Model A+, Model B, and Raspberry Pi Zero.  The base model is the Raspberry Pi Zero, it has mini-HDMI port, one micro USB port, and is used either a stand-alone or used for embedded design.  The Zero model has 1 GHz single-core processor with 512 MB RAM, and is currently sold for $5.  

As I will mention later, I won a model Zero as a door prize and look forward to learning about Linux.  

The most advanced model is the Raspberry Pi 3 Model B, which features a 1.2 GHz 64-bit quad-core ARM processor, wireless port, 1 GB RAM, 4 USB ports, Bluetooth, and Wifi.  This can be yours for $35.

Software includes Python, Sonic Pi, a music software, and games.  

Website:  https://www.raspberrypi.org/

 

Calculation Tricks: Namir Shammas 

Video:  https://www.youtube.com/watch?v=YYOc5GRK6do

We are always looking for ways to cut computing time down while keeping (or even approving) computational accuracy.  Namir Shammas is an expert in calculator programming and computation.  Here are some of the tips shared:

Calculating Derivatives:  You can adjust the step size, h, automatically (instead of asking for the user to input h) by using the following adjustment:  h = 0.01*(1 + |x|).

Newton’s Method:  Avoid dividing by zero in your steps by replacing the recurring step with:

x_n+1 = x_n * ( f(x_n) * f’(x_n) ) / ( f’(x_n)^2 + E ),  where E is an arbitrary small number that you provide. 

Primes can be found by using the Solovay-Strassen Primality Test and Miller-Rabin Primality Test. 

You can normalize regression data (reign in data with large ranges) to the range [a, b] by the following formula: 

( (x – x_min) / (x_max – x_min) ) * (b – a) + a

The user can choose the values of a and b.  Namir suggests that a = 1 and b = 2.  Calculate regression.  Don’t forget to translate back to the appropriate values.

Next Generation Calculation Measurement: Richard Nelson

Video:  https://www.youtube.com/watch?v=9ukvU3KcfzQ

Key factors in measuring calculator power include current drain of the power, the required power to operate a calculator, how to troubleshoot component, and how the power confirm to specs.  Nelson demonstrated a power measurement with a Mooshimeter.  The Mooshimeter is a compact meter that measures voltage, current, resistance, and temperature.  The kicker is that the Mooshimeter does not have a display, thus it would have to connected to a computer in order to read results.  

HP 41CL Update: Gene Wright

Video: https://www.youtube.com/watch?v=FrgGxT59YE4

An ultimate version of the HP 41C is the HP 41CL.  The HP 41CL contains nearly all the functions of the HP 41C, its available ROMs (except the time module), with other extended commands and functions.   Most HP 41Cs can be turned into a HP 41CL by replacing its original CPU board.  Talk about expanding the life of the HP 41C, which first came into our calculator community in 1979.  

Should you have one (or buy one, which will cost you about $250), there are new updates for the HP 41CL, such as:

PowerCL Extreme:  additional alpha functions (MID$, LADEL, CLA? (clear alpha?)), flag toggle functions, set and clear flags indirectly  (SFX, CFX)

Total Rekall:  Stack shuffle commands and other stack selection commands

CL Expanded Memory Rom:  has the stack swap functions from Total Rekall plus room to run four “copies” of the 41C on the same device

Greg J McClure’s Rom:  additional math utilities, probability distributions, and slide rule functions

HP 67/97 Games Rom:  Most of the games that were programmed for the HP 67 and HP 97.  

The HP 41CL web page:  http://www.systemyde.com/hp41/index.html

 

HP-41CL ROM Database:  Syvlain Cote

Video: https://www.youtube.com/watch?v=9eWwXbLwgo8

Cote demonstrates updating a HP 41CL.  The ROM can be updated one image at time, or all eight pages at once.  

3D Printing and Machine with the HP Prime:  Jim Donnelly

Video:  https://www.youtube.com/watch?v=MN0BStwuDug

Donnelly dedicated his talk to Don Morris.  I am a fan of 3D printers and amazed of what they produce.  Donnelly express that the HP Prime should be able to not only express 3D graphs but also generate 3D printer files that will be used as programs used in the printer.

There are two printing files: CNC and STL.  CNC files describes how the cutting tools act, while STL files describe what is to be printed.  Challenges include the natural files and limits of what can be stored in strings and lists.

Donnelly created several HP Prime programs to assist the printer in creating CNC files (ReadPrimeList, WriteColumnUp) and STL files (MAKEVERTEX, FMT).  

Merely talking about it just doesn’t do it justice, to see the programs and results, please see the presentation (by Jim Donnelly) in the HHC 2016 link provided at the beginning of this blog entry or the video above.   

New RPL:  Gunter Schnick

Video:  https://www.youtube.com/watch?v=YxN49QDHQMM\

The HP 50g may no longer be in production (production has ceased in 2015), but that doesn’t stop us enthusiasts from programming and improving on the 50g infrastructure. 

The author of the New RPL is Claudio L., which is an HPGCC3 project.  Website:  http://hpgcc3.org/  

Some features of New RPL (which is still a work in progress, according to the website, it is about 25%):

* Increase in speed processing, from 4.6 times faster (than a normal HP 50g) for complex functions to 60 times faster for basic arithmetic.

* In list processing the functions of [ + ] and ADD are reversed from the HP 50g practice.

* There are six more soft keys, mapped to the [APPS], [MODE]. [TOOL], [VAR], [STO>], and [NXT] keys.  Affected functions are moved elsewhere.  For example, Undo is moved to the left key, copying and pasting modes are also mapped to the left key (by use in combination with the left-shift key), and the [HIST] key now house store and recall.

* Pressing and holding [ ON ] with [SPC] toggles with format setting (STD, FIX, SCI, ENG).  Holding [ON[ with a number key gives the decimal place setting.

* Numbers in NewRPL can have exponents up to 3000 instead of just 499.

* With the degree and radian tags, the grads and DMS (degree minutes second) angle tags have been added.

Second Day:  September 18, 2016

DM 42:  Gunter Schnick

Video:  https://www.youtube.com/watch?v=bU-_9x8dEM8

Swiss Micros (www.swissmicros.com) is known for creating credit card size (and for some, larger landscape) versions of the HP 11C (DM 11), 12C (DM 12), 41C (DM 41), 15C (DM 15), and 16C (DM 16).  In the works is a recreation of the HP 42S currently named the DM 42P.  While still smaller than the HP 42S, the DM 42P would be an enhanced 42S.   Improvements include a USB port, a clock, SD slot (backup), 128KM RAM, 5 MB flash, and alpha keys moved to the keypad.  The proposed screen would become larger, from 2 lines to 6 lines, one will be used for the soft menu.  The DM 42 will run on Thomas Oakken’s Free42.  Swiss Micros plans to release the DM 42S in late 2016 (it could be possible the official release takes place in 2017).    

This video from Michael Steinmann of Swiss Micros shows a rendering of what the DM 42P will look like:  https://www.youtube.com/watch?v=qxZQQkh_8Og&feature=youtu.be  

Even More RAM with FRAM71B:  Bob Prosperi

Video:  https://www.youtube.com/watch?v=64CqEF27BoU

The HP 71B keeps getting new life.  As the slogan “Now you can cram even more RAM, with FRAM”, the FRAM71B upgrades the memory to a base 512 KB (which can be doubled), allow two “copies” of the 71B to work in the same machine, lowers the power consumption in sleep mode, and adds the FORTH/Assembler and HP-41 Translator ROMs.  Propsperi details the development of the FRAM71B and how the software would be installed with into the HP 71B.  

The new FRAM71B boards are limited in availability, see this thread for details for availability and cost:  http://hpmuseum.org/forum/thread-5437.html

 

HP-01 “Cricket”:  Geoff Quickfall 

Video:  https://www.youtube.com/watch?v=2RE3-xsbyb0

In addition to being an air pilot, Quickfall is the go-to man when it comes to restoring and repairing classic technology.  Quickfall talks about repairing the class HP-01 watch and installing a repair kit, created by Berhard Emese.  The repair not restores the watch but gives additional features:  extended battery life and two hundred year calendar range (1900-2099).  

Link to the repair kit:  http://www.panamatik.de/html/hp-01_repair_kit.html   

The talk concludes with the HP 25E/19E ACTs, which updates any HP Woodstock series calculators (1970s).

Final comment:  I have got to believe that wearing a HP-01 in the late 1970s made you the hit of the discotheques. 

HP 71B Compendium:  Sylvain Cote

Video:  https://www.youtube.com/watch?v=Jk6ZoW6dxqU

Cote’s compendium lists all the documents associated with the HP 71B (including mods, product ROMs, overlays, manuals, etc).  

It is being updated, but here is a link to the 2015 compendium:  http://www.hpmuseum.org/forum/thread-5286.html   

HP Prime Regression Model Selection:  Namir Shammas

Video: https://www.youtube.com/watch?v=hcskiz3fdE0

The talk was dedicated to Jon Johnson, who was the curator of the HP Computer Museum website (http://hpmuseum.net/).  Rest in peace, Johnson. 

The best fit programs is based on the best fit linearized programs for the HP 65, HP 67, and the PPC ROM.  

Generally, two data sets are used, one called a training set and one for a data set, with each set having different noise (unexplained variations).    For each model tested, the following are calculated:  slope, intercept, and the MSSE (mean square sum of errors) for both the training and data set along with a weighted average.  From the calculations, the model with the best fit is selected.  The programs featured at Best_YX_LR_Machine_Learning_1.txt and Best_YX_LR_Machine_Learning_2.txt, the latter used normalized values.

For details and programming, please check out Shammas’ talk about curve fitting (see the link to the talks about the beginning of this blog entry).

In Praise of the SR-56 Calculator:  Gene Wright

Video:  https://www.youtube.com/watch?v=oDtWB5ebssw

This talk is a comparison of the Texas Instruments SR-56 (1976) and the HP-25 (C) calculators.  

Regarding the SR-56 and HP-25:

* The SR-56 had 100 partially merged steps (steps only merged with the [2^nd] key).  The HP 25C only had 49 steps, but they were fully merged (with the [ f ], [ g ], [ STO ], storage arithmetic, and [ RCL ] keys).

* There were 10 data registers available at all times on the SR-56, while the HP-25 only had eight. 

* For comparisons, the SR-56 used an independent t register, while the HP-25 used the x and y stacks. 

* The SR-56 had a [2^nd] [LRN] (f(n)) sequence that allowed access to the Σ+, Σ-, mean, standard deviation, and rectangular/polar conversions.  This was the only way these functions could be accessed.

* Unique to the SR-56 were subroutines, DSZ (decrease by 1, skip on 0), and pause.  Unique to the HP 25C were a low battery warning, % key, H to HMS conversion, and engineering mode.

Programming Contests

Every year there are two programming contests.  They may be over but you can check them out right here:

RPL (HP 48, 49, 50):  http://www.hpmuseum.org/forum/thread-6871.html

RPN (WP-34): http://www.hpmuseum.org/forum/thread-6870.html

Door Prizes 

My Haul:  Raspberry PI (top), TI-15 (left), HP 49G (center).   The HP 50g I already had.

 

There was enough door prizes to go around that everyone left with at least three items each.  I donated an HP-50g (black keyboard) and a Calculated Industries Real Estate II.   I did pretty well for the door prizes:  HP 49G (not 49g+, instead the blue keyboard which to my surprise is really good), TI-15, and a Raspberry Pi Zero (a Linux computer).

Plans for HHP 2017

If you get a chance and you are a fan of calculators (particularly Hewlett Packard), I encourage you to attend.  The next conference is scheduled to be on September 16-17, 2017, place to be determined.  As we get closer to next September, more details will be worked out.

I want to do a presentation for the conference, right now one of two topics I am thinking of are talking about my blog or fast tips and tricks for the HP 12C.  Of course, this is all subject to change.

Until next time, have a great and wonderful day,

Eddie

This blog is property of Edward Shore, 2016

 

TI-84 Plus CE and HP Prime: Pitch versus Angle

TI-84 Plus CE and HP Prime:  Pitch versus Angle

The program PITCH calculates the pitch and angle of various roof heights.  The pitch of a roof is the number of inches of vertical rise per 12 inches.  For example: a roof of 3/12 is pitch is a roof that rises 3 inches for every 12 horizontal inches. 

This program demonstrates the angle computer given different roof pitches.  You control the rise, anywhere for 0.5 ft to 12 ft.   Use the up and down arrow keys to control the rise. 

To exit the program:

TI-84 Plus CE:  Press [CLEAR]. 

HP Prime:  Press [Esc].

TI-84 Plus CE: PITCH

"9/8/2016 EWS"

FnOff

ZoomSto

ZStandard

AxesOff

6→H:0→K

Degree

ClrDraw

Repeat K=45

getKey→K

TextColor(BLUE)

Text(­1,0,10,"PITCH = ")

Text(­1,0,110,H)

Text(­1,0,160,"/12")

Line(­4,­4,4,­4,GREEN)

Line(4,­4,4,­4+H,ORANGE)

Line(­4,­4,4,­4+H,GREEN)

TextColor(BLACK)

Text(­1,130,10,"ANGLE = ")

Text(­1,130,115,tan(H/12)

If K=25 and H≠12

Then

ClrDraw

H+.5→H

End

If K=34 and H≠0.5

Then

H-.5→H

ClrDraw

End

End

AxesOn

ZoomRcl

Disp "DONE."

HP Prime:  PITCH

EXPORT PITCH()

BEGIN

// HP Prime, EWS 2061-09-21

Xmin:=−10;Xmax:=10;

Ymin:=−10;Ymax:=10;

LOCAL h,k,a,t,s1,s2;

k:=0; h:=6; a:=HAngle;

HAngle:=1;

RECT(0);

REPEAT

k:=GETKEY;

s1:="Pitch = "+h+"/12";

TEXTOUT(s1,−5,8,4,#7DF9FFh);

LINE(−4,−4,4,−4,#FF00h);

LINE(4,−4,4,−4+h,#EDC9AFh);

LINE(−4,−4,4,−4+h,#FF00h);

t:=ATAN(h/12);

s2:="Angle = "+t+"°";

TEXTOUT(s2,−5,−8,4,#7DF9FFh);

// UP

IF k==2 AND h≠12 THEN

RECT(0); h:=h+.5;

END;

// DOWN

IF k==12 AND h≠.5 THEN

RECT(0); h:=h-.5;

END

UNTIL k==4; // Esc

RETURN "Done.";

END;

Update & HHC 2016 Highlights to come!

I have returned from Colorado attending the HHC 2016 conferences.  The weekend went by way too fast!  Highlights are going to come later this week.

Eddie

This blog is property of Edward Shore, 2016.

HP Prime Update: Version 10637, 8/29/2016

HP Prime Update:  Version 10637, 8/29/2016 

There is a new operating system for the HP Prime: version 10637 dated 8/29/2016.

Link:  ftp://ftp.hp.com/pub/calculators/Prime/

More details to come of the new version, but the files will have release notes.  Also, the version is discussed here:  http://www.hpmuseum.org/forum/thread-6803.html


Happy computing!

Eddie

This blog is property of Edward Shore, 2016.

TI-74 Programming: Factorial, List of Random Integers, 2 x 2 Matrix Determinant and Inverse, Simple Pendulum, Secret Codes

TI-74 Programming: Factorial, List of Random Integers, 2 x 2 Matrix Determinant and Inverse, Simple Pendulum, Secret Codes

Note:  The TI-74 has one programming space (lines 0 to 32768), which the entire space can be saved if the TI-74 connected to an appropriate peripheral (cassette or computer).  Cassettes?  The TI-74 is a 1980s basic computer after all. 

TI-74 Program Factorial

The TI-74 does not have a factorial function its command set.  Here is one way to tackle it:

1300 ! Factorial

1310 INPUT “N=”; N

1320 IF N=0 THEN PRINT 0: PAUSE: STOP

1325 F=1

1330 IF I=1 TO N-1

1340 F=F*I

1350 NEXT I

1360 PRINT “N!=”; F: PAUSE

1370 END

TI-74 List of Random Integers

Integers will appear for 2 seconds followed by a “Next…” indicator. 

1000 ! List of random integers

1005 RANDOMIZE

1010 INPUT “Length?”; K

1020 INPUT “High Number:”; N

1025 FOR I=1 TO K

1035 PRINT INT(N*RND+1): PAUSE 2

1040 PRINT “Next…”: PAUSE 0.5

1045 NEXT I

1050 PRINT “Done”: PAUSE: END

TI-74 2 x 2 Matrices: Determinant and Inverse

Matrix:  [[A, B],[C, D]]

Inverse:  [[F, G],[H, I]]

Determinant: E = A*D – B*C.  If E=0, the matrix is singular.

1100 ! 2 x 2 Matrices; det/inv

1105 INPUT “A=”; A, “B=”; B

1110 INPUT “C=”; C, “D=”; D

1115 E=A*D-B*C

1120 PRINT “det=”; E: PAUSE 2

1125 IF E=0 THEN STOP

1130 PRINT “inv=”: PAUSE 2

1135 F = D/E: G = -B/E: H=-C/E: I=A/E

1140 PRINT “F=”; F: PAUSE 2

1145 PRINT “G=”; G: PAUSE 2

1150 PRINT “H=”; H: PAUSE 2

1155 PRINT “I=”; I: PAUSE 2

1160 END

Example:

Matrix:  [[1, 5],[-2, 7]]

A=1,  B=5, C=-2, D=7

RUN 1100:

det = 17

inv =

F = .4117647059

G = -.2941176471

H = .1176470588

I = .0588235294

TI-74 Simple Pendulum:  Angular Velocity and Period

This routine calculates the angular velocity and period for a simple pendulum.  SI units are used, meaning that g = 9.80665 m/s^2.  Note the SQR command is square root.

1200 ! Simple Pendulum, SI unites

1205 G=9.80665

1210 INPUT “Length (m):”; L

1215 W=SQR(G/L): T=2*PI*SQR(L/G)

1220 PRINT “Angular Vel.:”; W; “m/s”:  PAUSE

1225 PRINT “Period:”; T; “s”: PAUSE

1230 END

Example:  L = 1.14 m

Results:  W = 2.932971967 m/s, T = 2.1422588902 s

TI-74 Secret 3 Digit Codes

I learn the PRINT USING and IMAGE commands for the first time here.  On the TI-74, # is a number field, the period (.) is the decimal point, ^ is the exponential character, and I can use spaces and text.  Yes, IMAGE is different on each of the basic calculators.

500  IMAGE ###   ###   (3 spaces in between the sets of hashtags)

505  PRINT “Here are the”: PAUSE 1

510  PRINT “secret codes!”: PAUSE 1

515  FOR I=1 TO 4

520 A=100*RND: B=100*RND

525 PRINT USING 500; A,B : PAUSE 1

530 NEXT I

540 END

Notes

1.     I am not able to use a variable while using a DIM command to size an array.  This is not allowed:

100 Z = 10

110 DIM A(Z)

2.     The commands and one-letter variables auto-capitalize when [ENTER] is pressed.  For example:

I type 100 print a, press [ENTER] and when look at the line again, the TI-74 displays:

100 PRINT A

3.     It is a good idea to put an END command after each routine.  END will tell the TI-74 stop, allowing multiple, separate routines in the TI-74 programming space.

4.    The amount of free memory is found by the formula:  FRE(0)-FRE(1).  The keyboard shortcut to FRE is [FN] [ ↓ ].

5.    If you want to clear the entire program space, type NEW ALL.

There will be more TI-74 programs in the near future.  Until next time,

Eddie

This blog is property of Edward Shore, 2016.